Seat belt system for motor cars

ABSTRACT

In a seat belt system for a motor vehicle, a shoulder safety belt and a pelvis safety belt are provided with one end of each belt connected to a center portion of the vehicle body and the other end of each belt connected to the inner side of a sliding door which opens into an intermediate position parallel with the side wall of the vehicle body. The safety belts are locked automatically when the sliding door is closed, and opened automatically when the sliding door is opened.

BACKGROUND OF THE INVENTION

Motor vehicles are equipped with seat belts, usually in the form of a combined shoulder and pelvis belt, but occasionally also in the form merely of a shoulder belt in order, in the event of a collision of the vehicle with an obstacle or another vehicle, to hold back its occupant uniformly with the vehicle by using the braking distance which is formed essentially by the bonnet which projects forward, and so project him from serious injuries which are usually the result of the striking of the occupant against more or less rigid parts of the bodywork or the steering wheel. As seat belts are frequently not applied because of negligence, particularly in short-distance and town traffic, where driving is at sufficiently low speeds to make a maximum protective effect possible, so-called passive seat belt systems have been produced which ensure automatic application of belts when the door of the vehicle is closed.

SUMMARY OF THE INVENTION

The task underlying the invention is to produce such a passive seat belt system for motor vehicles equipped with sliding doors, whose sliding doors, when they are opened, can be moved out of their closing position located in the side wall of the vehicle body, firstly into a parallel intermediate position and finally along the outside of the vehicle into the opening position.

This task is solved in accordance with the invention, in that at least one belt, more especially a shoulder belt, is provided which, on the one hand, is fastened to the vehicle body between the seats in the area of the centre of the vehicle, and on the other hand, is advantageously fastened in the area of its rear end to the door body of the sliding door.

Within this framework, the invention can be embodied in various ways.

In accordance with one type of embodiment, the belt is fastened on the side of the door directly or by the provision of connecting media, rods, cable controls or the like, to the arm of a lever which pivots in an opposite direction to the support arm which supports the sliding door in its moved-out intermediate position and in its opening position, and is connected to the vehicle body, which lever arm is advantageously coupled via gear media to the support arm in such a way that it pivots through an angle which is greater than the support arm and is rigidly locked in at least one final pivoting position.

In accordance with another type of embodiment, the door fastening point of the belt is movable in the longitudinal direction of the vehicle, is arranged in the area of the doorstep and is coupled to the outwardly movable support device of the sliding door in such a way that when the door is moved, it is moved in an opposite direction to the latter. The door fastening point is here advantageously formed by a slide block or roller carriage which is movable in the longitudinal direction of the vehicle in a guide rail which is inserted in the doorstep.

According to another type of embodiment, the door fastening point of a shoulder belt in the area of the rear edge of the door body is movable in a vertical direction, whereby the belt is fastened on the one hand above the seat in the centre of the vehicle body, and if necessary, to a corresponding strutting of the roof of the vehicle body, and on the other hand to a slide block or roller carriage which is movable in a pointed guide rail. With the slide block or roller carriage there is coordinated a draw spring and also a pull-back device, in such a way that when the door is opened, slide block or roller carriage is automatically pulled upwards by the draw spring, and when the door is closed, it is pulled downwards against the force of the draw spring.

In the case of all the aforementioned types of embodiment besides a shoulder belt which is automatically applied when the door is closed, a pelvis and/or knee belt can be provided which can be applied manually, whose lock is advantageously arranged on the door body and is coupled to the door lock operating mechanism in such a way that it is automatically locked or opened by operation of the door lock.

In the case of a sliding door which opens forwardly, both belts of a three-point belt, in accordance with the invention, are fastened to the rear edge of the door body via rollers which are independent of each other and are provided with a stopping device which is coupled to the door locking device by the provision of rods.

In another type of embodiment, a single-part belt runner is retained in a pull-through or a belt roller in the centre of the vehicle and fastened at one end to the rear edge of the door body rigidly or via a belt roller, and at the other end to a pivoting lever which is connected to the door body and can be pivoted in a substantially vertical plane, whereby the pivoting lever or its mounting simultaneously forms a deforming member for the purpose of limiting the force of the belt.

BRIEF DESCRIPTION OF THE DRAWING

The invention is described in detail in the following description with the aid of several embodiments which are represented in the drawing, but without any limitation to these.

In the drawing

FIG. 1 shows a diagrammatic representation of a motor vehicle which is equipped with sliding doors and a passive seat belt system;

FIG. 2 shows a diagrammatic representation of another type of embodiment of the invention;

FIG. 3 shows a cut-out representation of a further type of embodiment of the invention;

FIG. 4 shows a representation of a motor vehicle which is equipped with forward opening sliding doors and a seat belt system according to the invention;

FIG. 5 shows a cut-out representation of a support of a door belt-fastening point;

FIG. 6 shows a sectional representation of an emergency locking device for seat belts;

FIG. 7 shows a diagrammatic representation of a motor vehicle which is equipped with forward-opening sliding doors and a seat belt system;

FIG. 8 shows a section through FIG. 7 along the line VIII--VIII;

FIG. 9 shows a section through FIG. 8 along the line IX--IX;

FIG. 10 shows a front view of FIG. 9.

DETAILED DESCRIPTION OF THE INVENTION

In the vehicle body of a motor vehicle generally referred to by 1, door spaces 2 which are provided can be closed in each case by sliding doors mounted on a guide rail 5 by a guide head 4 which is supported on a support arm 6 which is pivotable about a vertical axis 7 and is connected to the side wall 8 of the vehicle body. The support arm 6 is pivotably connected to the guide head 4 about an axis 10 which is parallel to the axis 7. When the sliding door is opened, the door body 3, starting from its closed position located in the side wall of the vehicle body, is pivoted by the support arm 6 into a parallel intermediate position which can be seen from FIGS. 2 and 3 or 4 and 8, and finally moved in the longitudinal direction of the vehicle. Here, in the case of the embodiments of FIGS. 1 to 3, a rearwardly movable suspension of the door body 3 is provided, while in the case of the embodiment of FIG. 4, a door body 3 is moved forwardly for opening. In the case of the embodiment of the invention shown in FIG. 1, a transverse shoulder belt 11 is fixed to the centre of the vehicle body above the seat 12 in a fastening device which is a conventional automatic belt roller 13. The other end of the belt is fastened to a slide block 14 which is reciprocable in a guide rail 15 which is substantially vertical and is arranged on the door body 3 in the area of its rear end. On the slide block 14 there acts, on the one hand, a draw spring 16, which pulls the sliding door 3 into its intermediate position when it is opened, and on the other hand there acts a pull-back device which is not shown in detail in the drawing and which is formed by a traction cable which is connected to the support device 4, 6, 7, 9 and 10 of the sliding door 3, which pulls the slide block 14 when the door is pivoted into its closing position against the force of the draw spring 16 into its lower position and holds it there. Besides the passive transverse shoulder belt 11, a pelvis belt 17 which can be applied manually in the usual way is also provided which, on the one hand, is fastened via a conventional automatic belt roller 18 in the centre of the vehicle body to the floor of the vehicle body or to the cardan tunnel; and on the other hand, can be fixed into a lock 19 which is arranged on the door body 3. The lock 19 is advantageously coupled via rods 20 not only to the door lock operating mechanism 21 but also to the door locking button 22, in such a way that the lock 19 is automatically opened when the door lock is opened. Independently of the door lock operating mechanism 21, the lock l9 can also be opened via the button 22 of the door locking mechanism. Via a further rod branch 23, retention of the slide block 14 in its lower position which forms the door-sided fixed point for the transverse shoulder belt 11, can be achieved by means of the button 22 of the door locking mechanism. In conjunction with the rods 20 and 23, the button 22 of the door locking mechanism simultaneously forms an emergency lock for the seat belt system.

In the case of the embodiment represented in FIG. 2, a transverse shoulder belt 24 is fastened to a pivotable lever arm 26 via a fastening device 25, which can also be an automatic belt roller, which together with the support arm 6 of the support device of the sliding door 3, is pivotably fastened to the bracket 9. The lever arm 26 is coupled to the support arm 6 via gear media which are not shown in detail in the drawing, in such a way that upon pivoting of the support arm 6 therefore with the pivoting out or in of the door 3 into its intermediate position or its closing position, it carries out a pivotal movement which is opposite to the pivotal movement of the support arm 6 and extends over an angle which is approximately twice as large. Here, in order to avoid great space requirement, it can be arranged that the pivoting arm 26 is pivotable about a substantially horizontal axis and points substantially upwards when the sliding door 3 is opened and substantially downwards when the sliding door 3 is closed.

In the case of the embodiment of the invention represented in FIG. 3, the fastening point of the end of a transverse shoulder belt 27 is formed by a slide block 30 which is reciprocable in a guide rail 29 which is arranged in the doorstep 28, whereby the belt 27, which is fastened at the one end above the seat 12 in the centre of the vehicle body, is fastened, by provision of a belt roller, to the slide block 30, the roller not being shown in the drawing. At one end of the slide block 30 there acts a draw spring 31 which pulls the latter into its rear position and at the same time the transverse shoulder belt 27 into its working position, and at the other end there acts a cable control 32 which, via guide and gear media not shown in the drawing, is connected to the support device 4, 6 and 9 of the door 3 in such a way that the slide block 30, when the door 3 is pivoted out into its intermediate position, is pulled forwards, and with this the transverse shoulder belt 27 is pulled into its release position.

The motor vehicle which is represented in FIG. 4 is equipped with forward-opening sliding doors 3. Transverse shoulder belts 35 and pelvis belts 36 are fastened to a fastening device 34 which is arranged on the cardan tunnel 33 in the centre of the vehicle body. On the door, the transverse shoulder belts 35 are fastened in an automatic belt roller 39 which is fastened to the rear top beam of the door frame 38. The pelvis belts 36 are fastened to a belt roller 40, which is also automatic and is arranged in the area of the rear top beam 37 of the door 3. Both belt rollers 39 and 40 are provided with a known stopping device, which is not shown in detail in the drawing, and which is coupled via rods 41 to the door lock operating mechanism in such a way that the locking device is operated automatically with the door lock, as was described in the embodiment of FIG. 1. In addition, the locking device of the automatic belt roller 39 and 40 can be operated by means of the button 22 of the door locking mechanism by provision of a further rod branch 42. The button 22 here represents an emergency lock operating mechanism for locking the automatic belt roller 39 and 40, so that in cases of emergency, locking of the belts 35 and 36 can be released from outside.

Finally, in FIG. 5 there is represented an anchoring device for the door body 3 in its closed position. In the area of the belt roller 39 there is arranged on the rear top beam 37 of the door frame 38 of peg 43 which projects over its narrow side and which, upon pivoting of the door 3 into its closed position, comes into engagement with a recess 46, which is arranged on the narrow side of the door frame 44 and is strengthened by a slotted plate 45. By the positive connection 43 and 46 between door 3 and door frame 44, the belt forces in the shoulder belt 35 are substantially supported against the vehicle body, and the top beam 37 is completely relieved of belt forces. A corresponding device is also coordinated with the lower belt roller 40.

In FIGS. 7 to 10 there is represented a further type of deisgn of the invention, in which a seat belt embracing a shoulder belt 50 and a pelvis belt 51 is held by a single part in the centre of the vehicle in a pull-through 52 fastened to the vehicle floor or to the cardan tunnel. One end of the shoulder belt 50 firmly fastened to the rear edge 53 of the door body 3 by a stud part 54, and one end of the pelvis belt 51 is fastened to the free end of a pivoting lever 55. The pivoting lever 55 has two angular extensions 56 and 57. The lever 55 is pivotally mounted by angular extension 56 about an axis which is substantially oblique to the plane of the door body in a pivotal mounting 59 which is fastened to a cover for the sliding guide 4 and rail 5 of the sliding door, which cover forms an arm-rest 58. As can be seen, especially from the representation of FIG. 9, the pivotal mounting 59 is inclined slightly inwards and downwards, so that the pivoting lever 55 is moved in a plane which forms an acute angle with the plane of the door body 3, and is thereby brought up close to the door body 3 in its rearward and downward pointing security position, so that satisfactory maneuverability of the sliding door 3 is ensured. The pivotal mounting 59, in the embodiment shown, is fixed to the section of the arm-rest 58 which is transverse to the plane of the door, and is provided with a cover 60. The pelvis belt 51 which is fastened to the angular extension 57 of the pivoting lever 55 by means of a runner 61 is secured against slipping off by a ball-shaped thickening 62 on the free end of the angular extension 57. The movement of the pivoting lever between its substantially forward and upward pointing release position and its substantially rearward and downward pointing security position takes place by provision of the handle 63 which is coordinated with the door locking mechanism, whereby the pivoting lever 55 is connected to the bolt latch 66 of the door locking mechanism by a lever arm 64 which is connected to its angular extension 56 and is pointed radially to the pivotal mounting 59, and a connecting rod 65 which is parallel to the guide rail 5. The pivoting lever 55 in the embodiment shown is designed as a substantially permanently deformable member for the purpose of limiting the force of the belt, and butts in its rearward and downward pointing security position against a stop which is arranged on the vertical lateral surface 67 of the armrest 58, and in the embodiment shown, is formed by a sheetmetal angle 68, so that in the event of the occurrence of excessive tractive force in the belt, it is bent. In the event of the bending of the pivoting lever 55 transforming tractive force into deforming work, its angular extension 57 moves from its normal position indicated by A into the final position indicated by B, so that the path s is available for the work of deformation. Into the belt length there is inserted a self-blocking belt roller which can either be formed by the fitting 54, or can be arranged in the centre of the vehicle instead of the pull-through 52. In the case of a belt roller being arranged instead of the fitting 54, the free end of the belt section which forms the shoulder belt 50 is connected to a wire cable section 69, via which the belt section 50 is connected to the roller. If, as indicated in FIG. 1, instead of the pull-through 52, a self-blocking belt roller 70 is fastened in the centre of the vehicle, a wire cable section 77 is inserted into the belt runner which forms the two belts 50 and 51, via which not only the shoulder belt 50 but also the pelvis belt 51 is connected to the belt roller 70. 

I claim:
 1. In a seat belt system particularly for motor vehicles having doors which open and close by movement thereof forwardly and rearwardly of said vehicle, said vehicle comprising a vehicle body including a side wall, said vehicle body having a front, a back and a center spaced between said front and back, at least one sliding door mounted on said side wall of said vehicle body and movable from a closed position flush with the side wall of said vehicle body to an intermediate position parallel with and spaced from the closed position and then to an open position spaced in the longitudinal direction of the vehicle from the intermediate position, and means for mounting said door to said vehicle, each of said sliding doors having an inner side with the inner side having a front end and a rear end, the improvement comprising at least one safety belt having a first end mounted to a center portion of said vehicle body and a second end mounted to the inner side of said sliding door, with said at least one safety belt extending freely in an unrestrained condition continuously from said first end to said second end, means mounting said first end of said at least one safety belt to the center portion of said frame, and means for mounting said second end of said at least one safety belt to the inner side of said sliding door, said means for mounting said second end being actuated by sliding movement of said door to move said second end of said at least one belt to a first belt position to dispose said safety belt in orientation permitting ingress and egress of a passenger into and out of said vehicle when said door is in said open position, and to a second belt position to dispose said belt to actively restrain a passenger in said vehicle when said door is moved to said closed position, said at least one safety belt consisting of a shoulder safety belt, and a pelvis safety belt having a first end connected to a center portion of said vehicle body and a second end connected to said inner side of said sliding door, means for mounting said second end of said pelvis safety belt to the inner side of said sliding door, and means for mounting said first end of said shoulder safety belt to the center of the vehicle body also mounting said first end of said pelvis safety belt to the center of the vehicle body, said means for mounting said second end of said pelvis safety belt comprising a pivotal lever pivotal about an axis lying at an angle to the vertical plane of said sliding door, said pivotal lever having a first angular extension extending from one end thereof, and a second angular extension extending from the other end thereof, said pivotal lever being pivotal about said first angular extension while said second angular extension fixedly mounts thereon said second end of said pelvis safety belt.
 2. The seat belt system according to claim 1, wherein said means for mounting said second end of said second pelvis safety belt comprises a pivotal mounting for said for said first angular extension.
 3. The seat belt system according to claim 2, wherein said means for mounting said sliding door to said vehicle body comprises a first pivotal arm pivotal about a vertical axis having a first end pivotally connected to said vehicle body and a second end, a guide head pivotally connected to said second end of said pivotal arm, and a guide rail mounted to said inner side of the one of said sliding doors for guiding the movement of said guide head therealong when said sliding door is moved from its closed position to its intermediate and open positions, said guide rail having mounted thereon means for locking and unlocking said first and second safety belts.
 4. The seat belt system according to claim 3, wherein said guide rail comprises a cover for enclosing said guide rail and said pivotal mounting for said first angular extension is mounted on said cover.
 5. The seat belt system according to claim 4, wherein said means for locking and unlocking comprises a connecting rod having a first end and a second end, a pivotal latch handle connected to said first end of said connecting rod, and a pivotal connection having a first end pivotally connected to said second end of said connecting rod and a second end pivotally connected to said first angular extension, whereby said pivotal lever is rotated from an upward open position to a closed downward position in response to the actuation of said latch handle.
 6. The seat belt system according to claim 5, wherein said first angular extension is mounted in said pivotal mounting at an angle relative to said connecting rod and relative to a plane perpendicular to the plane of said inner side of said sliding door.
 7. The seat belt system according to claim 6, wherein said means for locking and unlocking said first and second safety belts comprises means for coordinating the locking and unlocking of said safety belts with the closing and opening of said sliding door.
 8. The seat belt system according to claim 7, further comprising an angle bracket having a bent portion, said angle bracket having a first end connected to said cover and a second end spaced from said first end toward said first end of said first shoulder safety belt and at an angle therewith forming said bent portion, said bent portion holding said pivotal lever therein and causing the bending of said pivot lever when extraordinary forces are applied on said second pelvis safety belt.
 9. In a seat belt system, particularly for motor vehicles having doors which open and close by movement thereof forwardly and rearwardly of said vehicle, said vehicle comprising a vehicle body including a side wall, said vehicle body having a front, a back and a center spaced between said front and back, at least one sliding door mounted on said side wall of said vehicle body and movable from a closed position flush with the said wall of said vehicle body to an intermediate position parallel with and spaced from the closed position and then to an open position spaced in the longitudinal direction of the vehicle from the intermediate position, and means for mounting said door to said vehicle body, each of said sliding doors having an inner side with the inner side having a front end and a rear end, the improvement comprising at least one safety belt having a first end mounted to a center portion of said vehicle body and a second end mounted to the inner side of said sliding door, with said belt extending freely in an unrestrained condition continuously from said first end to said second end, means mounting said first end of said at least one safety belt to the center portion of said frame, and means for mounting said second end of said at least one safety belt to the inner side of said sliding door, said means for mounting said second end being actuated by sliding movement of said door to move said second end of said at least one belt to a first belt position to dispose said belt in an orientation permitting entrance of a passenger into said vehicle when said door is in said open position to dispose said belt to actively restrain a passenger in said vehicle when said door is moved to said closed position, said means for mounting said second end of said at least one safety belt to the inner side of said sliding door comprising a pivotal lever mounted about an axis lying at an angle to the vertical plane of said sliding door, said pivotal lever having a first angular extension extending from one end thereof, and a second angular extension extending from the other end thereof, said pivotal lever being pivotal about said first angular extension while said second angular extension fixedly mounts thereon said second end of said at least one safety belt. 